CN103592976A - Temperature frequency conversion type temperature controller based on integrated circuit - Google Patents

Abstract

The invention discloses a temperature frequency conversion type temperature controller based on an integrated circuit. The temperature controller comprises a DC power source, a tone decoder integrated circuit, a time-based integrated circuit, a first capacitor, a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a sixth capacitor, a resistor, a thermistor, a potentiometer, a relay and a diode. According to the invention, a simple temperature frequency converter serves as a control circuit, the thermistor serves as a temperature sensor, and when temperature in a controlled place changes, the resistance value of the thermistor changes accordingly. The thermistor serves as the temperature sensor so that the heat power of an electric heating appliance during heating can be controlled. Besides, the temperature frequency conversion type temperature controller based on the integrated circuit also has the advantages of simple circuit, stable performance and convenient installing and debugging.

Description

Temperature based on integrated circuit is change type temperature controller frequently

Technical field

The present invention relates to a kind of temperature controller, relate in particular to a kind of temperature based on integrated circuit change type temperature controller frequently.

Background technology

Existing inserting type temperature controller can only be controlled the temperature of electric heating general ability, can not control the electric heating appliance thermal power in when heating, when electric heating appliance heats, thermal power need to be from hypermutation on earth from low just when high, helpless, thus to product, use and cause very large inconvenience.

Summary of the invention

Object of the present invention provides a kind of temperature based on integrated circuit change type temperature controller frequently with regard to being in order to address the above problem.

The present invention is achieved through the following technical solutions above-mentioned purpose:

The present invention includes direct supply, ATD integrated circuit, time-base integrated circuit, the first capacitor, the second capacitor, the 3rd capacitor, the 4th capacitor, the 5th capacitor, the 6th capacitor, resistor, thermal resistor, potentiometer, relay and diode, the negative pole of described diode respectively with the cathode output end of described direct supply, the first end of described relay, the electrode input end of described ATD integrated circuit, the electrode input end of described time-base integrated circuit, the forced resetting end of described time-base integrated circuit and the first end of described resistor are connected, the signal output part of described ATD integrated circuit is connected with the second end of described relay and the positive pole of described diode respectively, the filtering output end of described ATD integrated circuit is connected after described the 6th capacitor and is connected with the negative pole of described direct supply, the loop filter output terminal of described ATD integrated circuit is connected with the first end of described the 5th capacitor, the timing capacitor end of described ATD integrated circuit is connected with the first end of described the 4th capacitor with the first end of described potentiometer respectively, the timing resistor end of described ATD integrated circuit is connected with the second end of described potentiometer and the sliding end of described potentiometer respectively, the signal input part of described ATD integrated circuit is connected with the signal output part of described time-base integrated circuit, the discharge end of described time-base integrated circuit is connected with the second end of described resistor and the first end of described thermal resistor respectively, the low triggering end of described time-base integrated circuit respectively with the high-triggering end of described time-base integrated circuit, the second end of described thermal resistor is connected with the first end of described the first capacitor, the second end of described the first capacitor respectively with the negative input of described time-base integrated circuit, the negative pole of described direct supply, the control end of described time-base integrated circuit, the second end of described the 4th capacitor, the negative input of described ATD integrated circuit is connected with the second end of described the 5th capacitor.

Beneficial effect of the present invention is:

The present invention makees temperature sensor by thermistor, the thermal power while being conducive to control electric heating appliance heating; The present invention also has that circuit is simple, stable performance and Installation and Debugging advantage easily.

Accompanying drawing explanation

Fig. 1 is circuit diagram of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described:

As shown in Figure 1: the present invention includes direct supply, ATD integrated circuit (IC) 1, time-base integrated circuit IC2, the first capacitor C1, the second capacitor C2, the 3rd capacitor C3, the 4th capacitor C4, the 5th capacitor C5, the 6th capacitor C6, resistor R1, thermal resistor RT, potentiometer RP, relay K and diode VD, the negative pole of diode VD respectively with the cathode output end of direct supply, the first end of relay K, the electrode input end of ATD integrated circuit (IC) 1, the electrode input end of time-base integrated circuit IC2, the forced resetting end of time-base integrated circuit IC2 is connected with the first end of resistor R1, the signal output part of ATD integrated circuit (IC) 1 is connected with the positive pole of diode VD with the second end of relay K respectively, after filtering output end series connection the 6th capacitor C6 of ATD integrated circuit (IC) 1, be connected with the negative pole of direct supply, the loop filter output terminal of ATD integrated circuit (IC) 1 is connected with the first end of the 5th capacitor C5, the timing capacitor end of ATD integrated circuit (IC) 1 is connected with the first end of the 4th capacitor C4 with the first end of potentiometer RP respectively, the timing resistor end of ATD integrated circuit (IC) 1 is connected with the sliding end of potentiometer RP with the second end of potentiometer RP respectively, the signal input part of ATD integrated circuit (IC) 1 is connected with the signal output part of time-base integrated circuit IC2, the discharge end of time-base integrated circuit IC2 is connected with the first end of thermal resistor RT with the second end of resistor R1 respectively, the low triggering end of time-base integrated circuit IC2 respectively with the high-triggering end of time-base integrated circuit IC2, the second end of thermal resistor RT is connected with the first end of the first capacitor C1, the second end of the first capacitor C1 respectively with the negative input of time-base integrated circuit IC2, the negative pole of direct supply, the control end of time-base integrated circuit IC2, the second end of the 4th capacitor C4, the negative input of ATD integrated circuit (IC) 1 is connected with the second end of the 5th capacitor C5.

Claims (1)

1. the temperature frequency change type temperature controller based on integrated circuit, is characterized in that: comprise direct supply, ATD integrated circuit, time-base integrated circuit, the first capacitor, the second capacitor, the 3rd capacitor, the 4th capacitor, the 5th capacitor, the 6th capacitor, resistor, thermal resistor, potentiometer, relay and diode, the negative pole of described diode respectively with the cathode output end of described direct supply, the first end of described relay, the electrode input end of described ATD integrated circuit, the electrode input end of described time-base integrated circuit, the forced resetting end of described time-base integrated circuit and the first end of described resistor are connected, the signal output part of described ATD integrated circuit is connected with the second end of described relay and the positive pole of described diode respectively, the filtering output end of described ATD integrated circuit is connected after described the 6th capacitor and is connected with the negative pole of described direct supply, the loop filter output terminal of described ATD integrated circuit is connected with the first end of described the 5th capacitor, the timing capacitor end of described ATD integrated circuit is connected with the first end of described the 4th capacitor with the first end of described potentiometer respectively, the timing resistor end of described ATD integrated circuit is connected with the second end of described potentiometer and the sliding end of described potentiometer respectively, the signal input part of described ATD integrated circuit is connected with the signal output part of described time-base integrated circuit, the discharge end of described time-base integrated circuit is connected with the second end of described resistor and the first end of described thermal resistor respectively, the low triggering end of described time-base integrated circuit respectively with the high-triggering end of described time-base integrated circuit, the second end of described thermal resistor is connected with the first end of described the first capacitor, the second end of described the first capacitor respectively with the negative input of described time-base integrated circuit, the negative pole of described direct supply, the control end of described time-base integrated circuit, the second end of described the 4th capacitor, the negative input of described ATD integrated circuit is connected with the second end of described the 5th capacitor.